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E-grāmata: Recent Advances in Smart Self-Healing Polymers and Composites

Edited by Xiaming Feng (Postdoctoral Research Associate, Louisiana State University, USA), Edited by Guoqiang Li (Professor of Mechanical Engineering, Louisiana State University, Baton Rouge, LA, USA)

Formāts: EPUB+DRM
Sērija : Woodhead Publishing Series in Composites Science and Engineering
Izdošanas datums: 08-Jun-2022
Izdevniecība: Woodhead Publishing
Valoda: eng
ISBN-13: 9780128234730

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Formāts: EPUB+DRM
Sērija : Woodhead Publishing Series in Composites Science and Engineering
Izdošanas datums: 08-Jun-2022
Izdevniecība: Woodhead Publishing
Valoda: eng
ISBN-13: 9780128234730

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There have been many new developments since the first edition of this book was published back in 2015. These can be summarized as follows: integration of multiple properties into self-healing polymer materials, such as the shape memory effect and flame retardancy; beyond self-healing and the development of recyclable thermoset polymers; and the application of self-healing polymers in both 3D and 4D printing.

Recent Advances in Smart Self-healing Polymers and Composites, Second Edition provides a comprehensive introduction to the fascinating field of smart self-healing polymers and composites. All chapters are brought fully-up-to-date with the addition of six brand new contributions on the characterization of self-healing polymers, light-triggered self-healing, additive manufacturing, multifunctional thermoset polymers with self-healing ability, and recyclable thermoset polymers and 4D printing. It is written for a large readership including not only R&D researchers from diverse backgrounds such as chemistry, materials science, aerospace, physics, and biological science, but also for graduate student working on self-healing technologies as well as their newly developed applications.

Features new chapters on characterization of self-healing polymers, light-triggered self-healing, additive manufacturing, multifunctional thermoset polymers with self-healing ability, recyclable thermoset polymers and 4D printing
All chapters have been significantly updated from the previous edition
Provides a grounding in all key areas of research to bring people up to speed with the latest developments

1. Overview of crack self-healing
2. Healing efficiency characterization of self-healing polymers
3. Theoretical aspects and modeling of healing efficiency in polymeric systems
4. A modular concept for the solid-state healing of polymer resins and composites
5. Capsules-based self-healing polymers and polymer composites
6. Microvascular-based self-healing materials
7. Reversible chemical bond-based self-healing materials
8. Supramolecular network-based self-healing polymer materials
9. Self-healing coatings
10. Self-healing elastomers
11. Shape memory polymer-based self-healing composites
12. Self-healing composites with embedded shape memory polymer fibers and polymeric artificial muscle wires
13. Additive manufacturing of self-healing polymers and composites
14. Multifunctional thermoset polymers with self-healing ability
15. Recyclable thermoset polymers: beyond self-healing

Dr. Guoqiang Li is the Major Morris S. & DeEtte A. Anderson Memorial LSU Alumni Professor of Mechanical Engineering at Louisiana State University, USA. He is also holder of the John W. Rhea Jr. Professorship in Engineering at the same university. His research interests include: Composite Joints; Grid Stiffened Composite Structures; Infrastructure Composites; Low/High Velocity Impact of Composite Structures; Mechanics of Composite Materials; Particulate-Filled Composites; Repair and Rehabilitation of Composite Structures; and Smart Self-Healing Composites. Dr. Xiaming Feng is a postdoctoral research associate in the Department of Mechanical and Industrial Engineering at Louisiana State University, Baton Rouge, LA, USA. He attained his PhD from the University of Science and Technology of China, School of Safety Science and Engineering, Hefei, in 2015. His research expertise includes: nanocomposites, composites; materials- characterization; nanomaterials synthesis; polymeric materials; graphene-based materials; surface functionalization; TEM image analysis; FTIR analysis and TGA.

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